Use of virtual bronchoscopy in children with suspected foreign body aspiration

Veras, Tiago Neves; Hornburg, Gilberto; Schner, Adrian Maurício Stockler; Pinto, Leonardo Araújo

doi:10.1590/S1806-37132009000900016

Abstracts

Foreign body aspiration (FBA) into the tracheobronchial tree is a common problem in children, especially in those under three years of age. Preliminary radiological evaluation reveals normal chest X-rays in nearly 30% of such patients. Tomography-generated virtual bronchoscopy (VB) can facilitate the early diagnosis and rapid management of these cases. The definitive treatment is the removal of the foreign body by means of rigid bronchoscopy under general anesthesia. The objective of this study was to describe the use of VB in two patients with suspicion of FBA, as well as to review the literature regarding this topic. The two patients presented with sudden onset of respiratory symptoms and history of cough or choking with foods before these symptoms. Both patients were submitted to VB. In both cases, we detected an endobronchial foreign body, which was then removed by conventional rigid bronchoscopy in one of the cases. Only recently developed, VB is a noninvasive imaging method that has potential for use in detecting foreign bodies in the airways of children. In select cases, VB can indicate the exact location of the foreign body and even preclude the need to submit patients to rigid bronchoscopy in the absence of a foreign body.

Bronchoscopy; Pediatrics; Respiratory aspiration

A aspiração de corpo estranho (ACE) para o trato respiratório é um problema comum em pacientes pediátricos, em especial abaixo dos três anos de idade. Na avaliação radiológica inicial, cerca de 30% dos pacientes apresentam radiograma de tórax normal. A tomografia com broncoscopia virtual (BV) pode auxiliar no diagnóstico precoce desse quadro e seu pronto manejo. O tratamento definitivo se dá com a retirada do corpo estranho através de broncoscopia rígida e mediante anestesia geral. O objetivo deste trabalho foi descrever o uso da BV na abordagem de dois pacientes com suspeita de ACE e realizar uma revisão da literatura sobre este tópico. Os dois pacientes tiveram início súbito de sintomas respiratórios e relato de tosse ou engasgo com alimentos antecedendo o quadro. Os pacientes foram submetidos à BV, e foi detectada a presença de corpo estranho endobrônquico em ambos os casos, com remoção posterior por broncoscopia rígida convencional em um caso. A BV é um método não-invasivo recente e com potencial para detectar a presença de corpo estranho na via respiratória em crianças. Em casos selecionados, BV pode auxiliar na localização correta do corpo estranho e até mesmo evitar o procedimento de broncoscopia rígida na ausência de corpo estranho.

Broncoscopia; Pediatria; Aspiração respiratória

CASE REPORT

Use of virtual bronchoscopy in children with suspected foreign body aspiration^*

Tiago Neves Veras^I; Gilberto Hornburg^II; Adrian Maurício Stockler Schner^III; Leonardo Araújo Pinto^IV

^IPediatric Pulmonologist. Hospital Jeser Amarante Filho - HIJAF, Jeser Amarante Filho Hospital - Joinville, Brazil

^IIRadiologist. Hospital Dona Helena - HDH, Dona Helena Hospital - Joinville, Brazil

^IIIThoracic Surgeon. Hospital Jeser Amarante Filho - HIJAF, Jeser Amarante Filho Hospital - Joinville, Brazil

^IVProfessor. Laboratory of Pediatric Pulmonology, Institute for Biomedical Research, Pontifícia Universidade Católica do Rio Grande do Sul - PUCRS, Pontifical Catholic University of Rio Grande do Sul - Porto Alegre, Brazil

Correspondence to

ABSTRACT

Foreign body aspiration (FBA) into the tracheobronchial tree is a common problem in children, especially in those under three years of age. Preliminary radiological evaluation reveals normal chest X-rays in nearly 30% of such patients. Tomography-generated virtual bronchoscopy (VB) can facilitate the early diagnosis and rapid management of these cases. The definitive treatment is the removal of the foreign body by means of rigid bronchoscopy under general anesthesia. The objective of this study was to describe the use of VB in two patients with suspicion of FBA, as well as to review the literature regarding this topic. The two patients presented with sudden onset of respiratory symptoms and history of cough or choking with foods before these symptoms. Both patients were submitted to VB. In both cases, we detected an endobronchial foreign body, which was then removed by conventional rigid bronchoscopy in one of the cases. Only recently developed, VB is a noninvasive imaging method that has potential for use in detecting foreign bodies in the airways of children. In select cases, VB can indicate the exact location of the foreign body and even preclude the need to submit patients to rigid bronchoscopy in the absence of a foreign body.

Keywords: Bronchoscopy; Pediatrics; Respiratory aspiration.

Introduction

Foreign body aspiration (FBA) into the tracheobronchial tree is a frequent and serious cause of respiratory distress and visits to the pediatrics emergency, principally in patients under 3 years of age.^(1,2) Sudden onset of cyanosis, cough and wheezing are the principal symptoms described for this condition.⁽²⁾ However, in other situations, there is scarcity of clinical signs, either due to spontaneous improvement of the patients or due to failure, on the part of family members, to report episodes of suffocation or choking.

The radiological manifestation depends on the size, location and nature of the foreign body (FB) aspirated. Chest X-ray can show an unspecific infiltrate, atelectasis, areas of unilateral or bilateral hyperinflation or even parenchymal consolidations and bronchiectasis.⁽³⁾ Most FBs are not radiopaque, and approximately one third of the children admitted present normal chest X-ray results.^(4,5)

Serious respiratory sequelae, such as recurrent pulmonary infections, bronchiectasis and destruction of the previously healthy lung parenchyma, can result from FBA. Therefore, early diagnosis and intervention are fundamental for better management of this condition.⁽⁶⁾ Definite treatment is conducted by bronchoscopy, an invasive procedure, which, although simple, is not free of complications and risks. Virtual bronchoscopy (VB) is a relatively new, non-invasive, procedure that provides a three-dimensional view of the internal walls of the tracheobronchial tree through the reconstruction of axial images.

The objective of this study was to describe the use of the VB technique associated with low-dose multidetector CT (MDCT) in two pediatric patients with suspected FBA, as well as to conduct a systematic review on the subject, using PubMed and SciELO as data sources, in addition to the Brazilian literature related to the theme.

Case reports

The device used to perform the examinations was a 64-slice multidetector computed tomography scanner (SOMATOM Sensation 64; Siemens, Erlangen, Germany), equipped with Care Dose 4D, a device which modulates the radiation emitted depending on the thickness of the tissue studied. The thickness of the slice was 1 mm, with a 1.4 pitch, at 120 kVp, with 45 mA and exposure time of 3.53 s. The patients were sedated with chloral hydrate at 15%, at a dose of 50 mg/kg. The rigid bronchoscope used for the FB removal in one of the patients (Case 1) had a diameter of 3.5 mm (Karl Storz Instruments, Tuttlingen, Germany), and the child was sedated with propofol during the procedure.

Case 1

A 17-month-old male patient presented to the pediatric emergency room with breathlessness after choking during a meal 30 min prior to the medical visit. The child was previously healthy, with no history of asthma or fever.

Physical examination revealed that the patient was in good general health, he presented an SpO₂ of 96% on room air, mild subcostal retraction, tachypneic (respiratory rate = 46 breaths/min) and pulmonary auscultation with diffuse inspiratory and expiratory wheezing.

Chest X-ray evidenced interstitial infiltrate in the right hilar region. The trachea and main bronchi were normal in the VB. However, complete obstruction of the lumen of the intermediate bronchus was observed (Figures 1 and 2). The subjacent lung parenchyma was normal. The patient was submitted to rigid bronchoscopy with the removal of an organic FB (grain of rice) and subsequent local bronchial hygiene, without complications.

Case 2

A 14-month-old female patient was referred to the emergency room after reportedly wheezing for 2 months following the ingestion of peanut offered by the mother. The patient had used an oral corticosteroid on three previous occasions, for seven days each time, in combination with a nebulized bronchodilator. Physical examination revealed that the patient was in good general health, presented an SpO₂ of 97% on room air, Cushingoid appearance, normal respiration and pulmonary auscultation with wheezing located in the right hemithorax. The rest of the examination was unremarkable.

Chest X-ray evidenced right lung hyperinflation, without consolidation or pleural effusion. The trachea and main bronchi were normal, bilaterally, in the VB. However, in the topography of the right main bronchus, next to the carina, there was evidence of the presence of an image with well-defined, irregular borders obliterating the bronchial lumen (Figure 3). The patient was not submitted to rigid bronchoscopy, since the guardian refused to give consent, despite having been informed of the risk of future respiratory complications.

Discussion

In children, principally those in the 6- to 24-month age bracket, FBA is a relevant cause of breathlessness. In patients suspected of having this condition, after the survey of the history and the performance of meticulous clinical examination, radiological evaluation is the first step in the investigation. The most common radiographic findings are air trapping, atelectasis and shadows suggestive of a radiopaque FB.^(7,8) However, those findings are nonspecific and have low accuracy.

One group of authors reported that chest X-ray has a sensitivity of 68% and a specificity of 67% for the diagnosis of FBA.⁽³⁾ In a study with similar characteristics, an 85% sensitivity and a 68% specificity were demonstrated.⁽²⁾ In other studies, the conclusion reached was that the absence of radiological alterations does not exclude a diagnosis of FBA.^(9,10) In order to increase radiological accuracy, fluoroscopy imaging can be conducted in inhalation and exhalation, in lateral decubitus.⁽⁸⁾ However, conventional bronchoscopy cannot be ruled out based exclusively on these findings, principally in patients in whom there is a high suspicion of FBA.

In the cases described in our study, it was possible to identify the presence of FB in the tracheobronchial tree of the patients using VB associated with MDCT. Images in the axial plane as well as those created through formatting allowed the diagnosis of FBA. Rigid bronchoscopy remains the gold standard for the diagnosis and for the removal of FB in the tracheobronchial tree; however, it is an invasive procedure, which requires general anesthesia and can cause complications.^(11,12)

The modality of VB associated with MDCT is an imaging method capable of identifying the presence of FB and the associated parenchymal alterations. The greatest advantages over conventional tomography are in the increased speed in performing the examination and the possibility of thinner slices, with better spatial resolution for the 3D reconstruction.^(13,14) However, the principal disadvantage of this procedure is the exposure to radiation, which can be minimized by avoiding the excessive use of tomography scans and reducing the tube current (in mA) to the minimum possible, and the need for the sedation of the patient. Typically, the minimal limit accepted for a good quality image is 30 mA and 80 kVp.

One group of authors investigated the use of VB in pediatric patients with suspected FBA and concluded that it can correctly identify the position of the FB in the respiratory tree.⁽⁸⁾ The authors demonstrated that, when the VB result is normal, without evidence of endobronchial obstruction, the use of conventional bronchoscopy was not superior in providing relevant additional information. In another study, when images obtained by means of VB and conventional bronchoscopy in patients with suspected FBA were compared, similar results were found.⁽²⁾ In a recent study comparing VB and conventional bronchoscopy, the estimated sensitivity and specificity of VB were 96% and 58%, respectively.⁽¹²⁾

Another group of authors recently published a study comparing VB and rigid bronchoscopy in patients with suspected FBA,⁽¹⁵⁾ suggesting that the use of this new technique can shorten the time to the performance of bronchoscopy and accurately locate the FB. Although VB does not remove the FB, it can provide the precise location of the latter and can be useful in the preparation prior to the removal of the FB by means of rigid device. A possible disadvantage of the use of VB is the false-positive examination results. The presence of purulent endobronchial secretion or protrusion of some tumor mass towards the bronchial lumen must be ruled out.⁽⁸⁾

In a recent review, the importance of the development of respiratory endoscopy emergency centers was highlighted in order to optimize the treatment of patients suspected of having this condition.⁽¹⁶⁾

In conclusion, VB can be used as a method of investigation in children with suspected FBA. The correct location of the FB, the possibility of visualizing the lung parenchyma and the possibility of conducting the examination without anesthesia make this method viable for this condition. This study demonstrated the use of this new method in two cases with different evolutions. In addition, the performance of conventional bronchoscopy with general anesthesia can be avoided in cases when VB does not show the presence of FB in the airway.

References

1. Koşucu P, Ahmetoğlu A, Koramaz I, Orhan F, Ozdemir O, Dinç H, et al. Low-dose MDCT and virtual bronchoscopy in pediatric patients with foreign body aspiration. AJR Am J Roentgenol. 2004;183(6):1771-7.
2. Haliloglu M, Ciftci AO, Oto A, Gumus B, Tanyel FC, Senocak ME, et al. CT virtual bronchoscopy in the evaluation of children with suspected foreign body aspiration. Eur J Radiol. 2003;48(2):188-92.
3. Svedström E, Puhakka H, Kero P. How accurate is chest radiography in the diagnosis of tracheobronchial foreign bodies in children? Pediatr Radiol. 1989;19(8):520-2.
4. Sodhi KS, Saxena AK, Singh M, Rao KL, Khandelwal N. CT virtual bronchoscopy: new non invasive tool in pediatric patients with foreign body aspiration. Indian J Pediatr. 2008;75(5):511-3.
5. Fraga Ade M, Reis MC, Zambon MP, Toro IC, Ribeiro JD, Baracat EC. Foreign body aspiration in children: clinical aspects, radiological aspects and bronchoscopic treatment. J Bras Pneumol. 2008;34(2):74-82.
6. Burke AJ, Vining DJ, McGuirt WF Jr, Postma G, Browne JD. Evaluation of airway obstruction using virtual endoscopy. Laryngoscope. 2000;110(1):23-9.
7. Honnef D, Wildberger JE, Das M, Hohl C, Mahnken AH, Barker M, et al. Value of virtual tracheobronchoscopy and bronchography from 16-slice multidetector-row spiral computed tomography for assessment of suspected tracheobronchial stenosis in children. Eur Radiol. 2006;16(8):1684-91.
8. Adaletli I, Kurugoglu S, Ulus S, Ozer H, Elicevik M, Kantarci F, et al. Utilization of low-dose multidetector CT and virtual bronchoscopy in children with suspected foreign body aspiration. Pediatr Radiol. 2007;37(1):33-40.
9. Zerella JT, Dimler M, McGill LC, Pippus KJ. Foreign body aspiration in children: value of radiography and complications of bronchoscopy. J Pediatr Surg. 1998;33(11):1651-4.
10. Hartnick CJ, Chung S, Emery KH, Myer CM 3rd. Imaging case study of the month. Pediatric virtual bronchoscopy. Ann Otol Rhinol Laryngol. 2002;111(3 Pt 1):281-3.
11. Konen E, Katz M, Rozenman J, Ben-Shlush A, Itzchak Y, Szeinberg A. Virtual bronchoscopy in children: early clinical experience. AJR Am J Roentgenol. 1998;171(6):1699-702.
12. Ozkurt H, Bahadir E, Ucgul A, Altuna C, Basak M, Cevizci NM, et al. Comparison of multidetector computed tomography-virtual bronchoscopy and conventional bronchoscopy in children with suspected foreign body aspiration. Emerg Radiol. Epub 2008 Nov 19.
13. Sorantin E, Geiger B, Lindbichler F, Eber E, Schimpl G. CT-based virtual tracheobronchoscopy in children--comparison with axial CT and multiplanar reconstruction: preliminary results. Pediatr Radiol. 2002;32(1):8-15.
14. Heyer CM, Nuesslein TG, Jung D, Peters SA, Lemburg SP, Rieger CH, et al. Tracheobronchial anomalies and stenoses: detection with low-dose multidetector CT with virtual tracheobronchoscopy--comparison with flexible tracheobronchoscopy. Radiology. 2007;242(2):542-9.
15. Cevizci N, Dokucu AI, Baskin D, Karadağ CA, Sever N, Yalçin M, et al. Virtual bronchoscopy as a dynamic modality in the diagnosis and treatment of suspected foreign body aspiration. Eur J Pediatr Surg. 2008;18(6):398-401.
16. de Lima AG, dos Santos NA, Rocha ER, Toro IF. Bronchoscopy for foreign body removal: where is the delay? J Bras Pneumol. 2008;34(11):956-8.

Endereço para correspondência:

Tiago Neves Veras

Rua Três Barras, 539, casa 01, Saguaçu

CEP 89221-430, Joinville, SC, Brasil

Tel 55 47 3027-1113

E-mail:

tnveras@pneumoped.com.br

*

Trabalho realizado no Hospital Dona Helena - HDH - Joinville (SC) Brasil.

Publication Dates

Publication in this collection
06 Oct 2009
Date of issue
Sept 2009

History

Received
22 Jan 2009
Accepted
03 May 2009

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] 1. Koşucu P, Ahmetoğlu A, Koramaz I, Orhan F, Ozdemir O, Dinç H, et al. Low-dose MDCT and virtual bronchoscopy in pediatric patients with foreign body aspiration. AJR Am J Roentgenol. 2004;183(6):1771-7.

[2] 2. Haliloglu M, Ciftci AO, Oto A, Gumus B, Tanyel FC, Senocak ME, et al. CT virtual bronchoscopy in the evaluation of children with suspected foreign body aspiration. Eur J Radiol. 2003;48(2):188-92.

[3] 3. Svedström E, Puhakka H, Kero P. How accurate is chest radiography in the diagnosis of tracheobronchial foreign bodies in children? Pediatr Radiol. 1989;19(8):520-2.

[4] 4. Sodhi KS, Saxena AK, Singh M, Rao KL, Khandelwal N. CT virtual bronchoscopy: new non invasive tool in pediatric patients with foreign body aspiration. Indian J Pediatr. 2008;75(5):511-3.

[5] 5. Fraga Ade M, Reis MC, Zambon MP, Toro IC, Ribeiro JD, Baracat EC. Foreign body aspiration in children: clinical aspects, radiological aspects and bronchoscopic treatment. J Bras Pneumol. 2008;34(2):74-82.

[6] 6. Burke AJ, Vining DJ, McGuirt WF Jr, Postma G, Browne JD. Evaluation of airway obstruction using virtual endoscopy. Laryngoscope. 2000;110(1):23-9.

[7] 7. Honnef D, Wildberger JE, Das M, Hohl C, Mahnken AH, Barker M, et al. Value of virtual tracheobronchoscopy and bronchography from 16-slice multidetector-row spiral computed tomography for assessment of suspected tracheobronchial stenosis in children. Eur Radiol. 2006;16(8):1684-91.

[8] 8. Adaletli I, Kurugoglu S, Ulus S, Ozer H, Elicevik M, Kantarci F, et al. Utilization of low-dose multidetector CT and virtual bronchoscopy in children with suspected foreign body aspiration. Pediatr Radiol. 2007;37(1):33-40.

[9] 9. Zerella JT, Dimler M, McGill LC, Pippus KJ. Foreign body aspiration in children: value of radiography and complications of bronchoscopy. J Pediatr Surg. 1998;33(11):1651-4.

[10] 10. Hartnick CJ, Chung S, Emery KH, Myer CM 3rd. Imaging case study of the month. Pediatric virtual bronchoscopy. Ann Otol Rhinol Laryngol. 2002;111(3 Pt 1):281-3.

[11] 11. Konen E, Katz M, Rozenman J, Ben-Shlush A, Itzchak Y, Szeinberg A. Virtual bronchoscopy in children: early clinical experience. AJR Am J Roentgenol. 1998;171(6):1699-702.

[12] 12. Ozkurt H, Bahadir E, Ucgul A, Altuna C, Basak M, Cevizci NM, et al. Comparison of multidetector computed tomography-virtual bronchoscopy and conventional bronchoscopy in children with suspected foreign body aspiration. Emerg Radiol. Epub 2008 Nov 19.

[13] 13. Sorantin E, Geiger B, Lindbichler F, Eber E, Schimpl G. CT-based virtual tracheobronchoscopy in children--comparison with axial CT and multiplanar reconstruction: preliminary results. Pediatr Radiol. 2002;32(1):8-15.

[14] 14. Heyer CM, Nuesslein TG, Jung D, Peters SA, Lemburg SP, Rieger CH, et al. Tracheobronchial anomalies and stenoses: detection with low-dose multidetector CT with virtual tracheobronchoscopy--comparison with flexible tracheobronchoscopy. Radiology. 2007;242(2):542-9.

[15] 15. Cevizci N, Dokucu AI, Baskin D, Karadağ CA, Sever N, Yalçin M, et al. Virtual bronchoscopy as a dynamic modality in the diagnosis and treatment of suspected foreign body aspiration. Eur J Pediatr Surg. 2008;18(6):398-401.

[16] 16. de Lima AG, dos Santos NA, Rocha ER, Toro IF. Bronchoscopy for foreign body removal: where is the delay? J Bras Pneumol. 2008;34(11):956-8.